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Futured KMP Template

Hey there 👋

This is our template from which we build Kotlin Multiplatform applications that target Android and iOS platforms. It is our opinionated way of building KMP apps and shines a light on how we structure our architecture and what tools and libraries we use.

To give you a short overview of our stack, we use:

  • Native UI on both platforms. Jetpack Compose on Android and SwiftUI on iOS. The rest of the application is shared in KMP.
  • Decompose for sharing presentation logic and navigation state.
  • The app follows the MVVM design pattern, ViewModels are built around the Decompose InstanceKeeper feature.
  • Koin for dependency injection.
  • SKIE for better Kotlin->Swift interop (exhaustive enums, sealed classes, Coroutines support).
  • moko-resources for sharing string, color and image resources.
  • apollo-kotlin client for apps that call GraphQL APIs.
  • ktorfit client for apps that call plain HTTP APIs.
  • Jetpack DataStore as a simple preferences storage (we have JSON-based and primitive implementations).
  • iOS-templates as template which generates a new iOS scene using MVVM-C architecture.

The template is a sample app with several screens to let you kick off the project with everything set up including navigation and some API calls.

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Project Name

kmp compose swiftui

kotlin-version android-minsdk android-targetsdk ios-target

Short project description.

Project info

KMP

  • Product Flavors: dev, prod
  • Use-Cases: Kotlin Coroutines cr-usecases

Android

  • ApplicationId: app.futured.project
  • minSdk: 28
  • targetSdk: 34
  • Supports: Dark mode, landscape orientation
  • Build Variants: debug, enterprise, release

iOS

  • Deployment target: 16.0
  • Bundle identifier: app.futured.project
  • Supports: Dark mode, landscape orientation, iPadOS, watchOS
  • Language: Swift 5.0
  • IDE: Xcode 11.0
  • Dependency management: Swift package manager
  • Command line tools: Fastlane
  • Code style:

Team:

Used Tools

Test accounts

Security Standard

This project complies with Standard (F0), High (F1), Highest (F2) security standard.

Project specific standard

Gradle tasks

  1. clean - Remove all build folders
  2. lintCheck - Run ktlint, detekt checks. The same runs on CI.
  3. ktlintFormat - Reformat source code according to ktlint rules.
  4. generateMRcommonMain - Regenerate shared resource IDs.
  5. :shared:network:graphql:downloadApolloSchemaFromIntrospection - Download the latest Apollo schema
  6. :shared:network:graphql:generateApolloSources - Generate Apollo sources (rebuilds models after adding modifying queries, mutations, etc.)

Navigation Structure

The app utilizes Decompose to share presentation logic and navigation state in KMP.
The following meta-description provides an overview of the Decompose navigation tree:

Navigation("RootNavigation") {
    Slot {
        Screen("LoginScreen")
        Navigation("HomeNavigation") {
            Stack {
                Screen("FirstScreen")
                Screen("SecondScreen")
                Screen("ThirdScreen")
            }
        }
    }
}

Project Setup

Initial script

Use init_template.kts script to set up the template. The script renames directories and package names in files to the given package name.

It is written in Kotlin. To run it you need to have kscript installed.

Usage

kscript init_template.kts

Product Flavors

The project utilizes BuildKonfig plugin for implementing build flavors in the network module. There are two product flavors: dev and prod, which select API url used in :shared:network:rest and :shared:network:graphql modules.

In general, the build flavor can be specified as a Gradle build flag

./gradlew whateverTask -P buildkonfig.flavor=dev

Please, refer to :shared:network:* module Gradle configs for more info.

Android

During local development, the build flavor can be specified in gradle.properties file like so:

buildkonfig.flavor=dev

iOS

On iOS, we utilize .xcconfig Build Configuration files, where each file per build configuration specifies a KMP_FLAVOR environment variable.

This variable is then used in the shared framework build step to pass the flavor as Gradle build flag:

./gradlew :shared:app:embedAndSignAppleFrameworkForXcode -P buildkonfig.flavor=$KMP_FLAVOR

Currently, the Debug build configuration uses the dev flavor, and the Release configuration uses the prod flavor. When adding new build configurations, please make sure to also define the KMP_FLAVOR variable using the aforementioned method.

Crashlytics

We can have symbolicated Kotlin crash reports on iOS. We use NSExceptionKt to achieve that. Everything is set up, but some finishing touches need to be made when you add Crashlytics to your project:

  1. Set up Firebase Crashlytics on both platforms as you would usually do.
  2. After dependencies are in place, on each platform uncomment the code in PlatformFirebaseCrashlyticsImpl classes (follow comments).
  3. On iOS, do not forget to also upload debug symbols from the KMP framework. This has to be done manually. To do this, set up an additional build phase in Xcode:
# https://firebase.google.com/docs/crashlytics/get-deobfuscated-reports?platform=ios&authuser=1#manually-upload-dsyms

# Location of GoogleService-Info.plist file for Firebase project (this might depend on build configuration)
GSPFILE="path_to_your_file.plist"

# `KOTLIN_FRAMEWORK_NAME` env variable should be defined in `.xcconfig` file for current build configuration.
# The other ones are implicitly provided by Xcode.
DSYMFILE="${SRCROOT}/../shared/app/build/xcode-frameworks/${CONFIGURATION}/${SDK_NAME}/${KOTLIN_FRAMEWORK_NAME}.framework.dSYM"

echo "Uploading Kotlin framework dSYM to Crashlytics"
echo "Google Services file: ${GSPFILE}"
echo "Shared framework dSYM file: ${DSYMFILE}"

# Validate
${BUILD_DIR%/Build/*}/SourcePackages/checkouts/firebase-ios-sdk/Crashlytics/upload-symbols --build-phase --validate -gsp ${GSPFILE} -p ios ${DSYMFILE}

# Upload
${BUILD_DIR%/Build/*}/SourcePackages/checkouts/firebase-ios-sdk/Crashlytics/upload-symbols -gsp ${GSPFILE} -p ios ${DSYMFILE}

Deep Linking

Deep links are provided by each platform to common code and processed using DeepLinkResolver and DeepLinkNavigator classes. The (example) app currently supports the following scheme: kmptemplate and the following links:

  • kmptemplate://login -- Navigates to login screen
  • kmptemplate://a -- Navigates to bottom navigation tab A
  • kmptemplate://b -- Navigates to bottom navigation tab B
  • kmptemplate://c -- Navigates to bottom navigation tab C
  • kmptemplate://b/third -- Navigates to third example screen on tab B.
  • kmptemplate://b/secret?arg={OptionalArgument} -- Navigates to secret screen reachable only by deep link with optional argument arg on tab B